17413-84-2Relevant academic research and scientific papers
Synthesis, In Vitro, In Vivo and In Silico Antidiabetic Bioassays of 4-Nitro(thio)phenoxyisobutyric Acids Acting as Unexpected PPARγ Modulators: An In Combo Study
Almanza-Pérez, Julio Cesar,Chávez-Silva, Fabiola,Colin-Lozano, Blanca,Estrada-Soto, Samuel,Hidalgo-Figueroa, Sergio,Navarrete-Vazquez, Gabriel,Torres-Gomez, Héctor
, (2022/01/24)
Four isobutyric acids (two nitro and two acetamido derivatives) were prepared in two steps and characterized using spectral analysis. The mRNA concentrations of PPARγ and GLUT-4 (two proteins documented as key diabetes targets) were increased by 3T3-L1 ad
Use of allosteric hemoglobin modifiers in combination with radiation therapy to treat carcinogenic tumors
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, (2008/06/13)
A family of compounds has been found to be useful for right-shifting hemoglobin towards a low oxygen affinity state. The effect has particular application in radiation oncology applications. The compounds are capable of acting on hemoglobin in whole blood.
Allosteric modifiers of hemoglobin useful for decreasing oxygen affinity and preserving oxygen carrying capability of stored blood
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, (2008/06/13)
A family of compounds has been found to be useful for right-shifting hemoglobin towards a low oxygen affinity state. The compounds are capable of acting on hemoglobin in whole blood. In addition, the compounds can maintain the oxygen affinity in blood during storage and can restore the oxygen affinity of outdated blood.
Allosteric modifiers of hemoglobin
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, (2008/06/13)
A family of compounds has been found to be useful for right-shifting hemoglobin towards a low oxygen affinity state. The compounds are capable of acting on hemoglobin in whole blood. In addition, the compounds can maintain the oxygen affinity in blood during storage and can restore the oxygen affinity of outdated blood.
Medical uses of allosteric hemoglobin modifier compounds in patient care
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, (2008/06/13)
A family of compounds has been found to be useful for right-shifting hemoglobin towards a low oxygen affinity state. The effect has particular application in a wide variety of treatments including hypoxia, hypothermia, ischemia, stroke, ARDS, COPD, surgical blood loss, acute nonvolemic hemodilutions, wounds, diabetic ulcers, chronic leg ulcers, pressure sores, tissue transplants, and sepsis. The compounds are capable of acting on hemoglobin in whole blood.
Allosteric hemoglobin modifiers to decrease oxygen affinity in blood
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, (2008/06/13)
A family of compounds has been found to be useful for right-shifting hemoglobin towards a low oxygen affinity state. The compounds are capable of acting on hemoglobin in whole blood. In addition, the compounds can maintain the oxygen affinity in blood dur
Using allosteric hemoglobin modifiers to decrease oxygen affinity in blood
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, (2008/06/13)
A family of compounds has been found to be useful for right-shifting hemoglobin towards a low oxygen affinity state. The compounds are capable of acting on hemoglobin in whole blood. In addition, the compounds can maintain the oxygen affinity in blood dur
Allosteric hemoglobin modifiers useful for decreasing oxygen affinity and preserving oxygen carrying capability of stored blood
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, (2008/06/13)
Compounds of the general structural formula: STR1 wherein X, Y and Z may each be CH2, NH, or O, R2-6 are either hydrogen, halogen, or a substituted or unsubstituted C1, C2, or C3 alkyl group and these
Allosteric hemoglobin modifiers
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, (2008/06/13)
Allosteric hemoglobin modifier compounds having the general formula STR1 wherein X and Z may be CH2, NH or O.
Allosteric Modifiers of Hemoglobin. 1. Design, Synthesis, Testing, and Structure-Allosteric Activity Relationship of Novel Hemoglobin Oxygen Affinity Decreasing Agents
Randad, Ramnarayan S.,Mahran, Mona A.,Mehanna, Ahmed S.,Abraham, Donald J.
, p. 752 - 757 (2007/10/02)
Three isomeric series of 2-(aryloxy)-2-methylpropionic acids were prepared and studied for their ability to decrease the oxygen affinity of human hemoglobin A.The isomeric aryloxy groups included 4-methyl>phenoxy, 4-(arylacetamido)phenoxy, and 4-methyl>phenoxy.A total of 20 compounds were synthesized and tested.Structure-activity relationships are presented.Several of the new compounds were found to be strong allosteric effectors of hemoglobin.The two most active compounds are 2-methyl>phenoxy>-2-methylpropionic acid and the corresponding 3,5-dimethyl derivative.The latter two compounds have been compared to other known potent allosteric effectors in the same assay and show greater activity.Both compounds also exhibit a right shift in the oxygen equilibrium curve when incubated with whole blood.The new compounds may be of interest in clinical or biological areas that require or would benefit from a reversal of depleted oxygen supply (i.e., ischemia, stroke, tumor radiotherapy, blood storage, blood substitutes, etc.).They are also structurally related to several marketed antilipidemic agents.
